In this paper, qualitative simulation is applied to reason induc tively about the behavior of a quantitatively simulated aircraft model, to determine on-line when a malfunction occurs in the quantitative model, to hypothesize about the nature of this malfunction, and to decide upon a global strategy that allows to operate (control) the quantitative aircraft model under the modified flying conditions.
Cellier, F.E. and D.W. Yandell (1987). "SAPS-II: A New Implementation of the Systems Approach Problem Solver," International J. of General Systems, 13(4), pp 307-322.
2.
Cellier, F.E. (1987). "Qualitative Simulation of Technical Systems Using the General System Problem Solving Framework," International J. of General Systems, 13(4), pp 333-344.
3.
Etkin, B. (1972). Dynamics of Atmospheric Flight, John Wiley & Sons, Inc.
4.
Etkin, B. (1982). Dynamics of Flight, John Wiley & Sons, Inc.
5.
Etkin, B. and S. Zhu (1982). Control Logic for Landing-Abort Autopilot Mode, UTIAS Report No. 258, Institute for Aerospace Studies, University of Toronto, Canada.
6.
Forrester, J.W. (1971). World Dynamics, Wright Allen Press.
7.
Hacker, T. (1970). Flight Stability and Control, American Elsevier Publishing Company, Inc.
8.
Heffley, R.K. et alia (1972). Aircraft Handling Qualities Data, Report NASA-CR-2144, Systems Technology, Inc.
9.
Irving, F.G. (1966). An Introduction to the Longitudinal Static Flight of Low-Speed Aircraft, Pergamon Press
10.
Klir, G.J. (1985). Architecture of Systems Problem Solving, Plenum Press, New York.
11.
Law, A.M. and W.D. Kelton (1982). Simulation Modeling and Analysis, McGraw Hill, New York, N.Y.
Systems Control Technology ( 1984). CTRL-C, A Language for the Computer-Aided Design of Multivariable Control Systems, User's Guide, Systems Control Technology , Palo Alto, CA.
14.
Vesantera, P. (1988). Qualitative Flight Simulation: A Tool for Global Decision Making, MS Thesis, Dept. of Electrical & Computer Engineering, University of Arizona, Tucson, AZ.
